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公开(公告)号:US20180072619A1
公开(公告)日:2018-03-15
申请号:US15818016
申请日:2017-11-20
发明人: Izuru KASHIMA , Yusuke FUJIWARA , Kiyoshi TAMAI , Yuichi SUZUKI , Daisuke KOBAYASHI , Yoichi SERA , Taku YAMADA
CPC分类号: C03C21/002 , C03C3/085 , C03C3/087 , C03C3/091 , C03C15/00 , C03C21/006 , C03C23/0075 , G01B5/28
摘要: A chemically strengthened glass having a compressive stress layer formed in a surface layer thereof according to an ion exchange method, in which the glass has a surface roughness (Ra) of 0.20 nm or higher, a hydrogen concentration Y in a region to a depth X from an outermost surface of the glass satisfies the following relational equation (I) at X=from 0.1 to 0.4 (μm), a surface strength F (N) measured by a ball-on-ring test under the following conditions is (F≧1500×t2) relative to a sheet thickness t (mm) of the glass, and a surface of the glass has no polishing flaw: Y=aX+b (I) in which meanings of respective symbols in the equation (I) are as follows: Y: hydrogen concentration (as H2O, mol/L); X: depth from the outermost surface of the glass (μm); a: −0.270 to −0.005; and b: 0.020 to 0.220.
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2.发明申请MEMBER WITH SEALING MATERIAL LAYER, ELECTRONIC DEVICE, AND METHOD OF MANUFACTURING ELECTRONIC DEVICE 审中-公开具有密封材料层的成员,电子设备以及制造电子设备的方法公开(公告)号:US20140342136A1
公开(公告)日:2014-11-20
申请号:US14271731
申请日:2014-05-07
发明人: Yohei NAGAO , Ryota MURAKAMI , Yoichi SERA
CPC分类号: B32B17/00 , B32B2307/20 , B32B2457/00 , C03C3/145 , C03C8/14 , C03C8/24 , Y10T428/24926
摘要: It is an object to provide a member with a sealing material layer having good sealability when low-power sealing laser light is used. A member with a sealing material layer includes a substrate having a sealing region on a surface; and a sealing material layer on the sealing region and containing sealing glass and a low-expansion filler, wherein the sealing material layer has a first region on the substrate side with respect to a center of the layer and a second region opposite the substrate with respect to the center, and has, in a cross section taken along the thickness direction of the sealing material layer, a part where a ratio A/B between a proportion “A” of an area of the low-expansion filler in the first region and a proportion “B” of an area of the low-expansion filler in the second region is less than 1.0.
摘要翻译: 本发明的目的是提供一种当使用低功率密封激光时具有良好密封性的密封材料层的构件。 具有密封材料层的构件包括在表面上具有密封区域的基板; 以及密封材料层,所述密封材料层包含密封玻璃和低膨胀填料,所述密封材料层相对于所述层的中心具有在所述基板侧的第一区域和与所述基板相对的第二区域 并且沿着密封材料层的厚度方向截取的截面为在第一区域的低膨胀填料的面积的比例“A”与第一区域中的低膨胀填料的面积的比例A / 第二区域中的低膨胀填料的面积的比例“B”小于1.0。
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公开(公告)号:US20160207828A1
公开(公告)日:2016-07-21
申请号:US15000675
申请日:2016-01-19
发明人: lzuru KASHIMA , Yusuke FUJIWARA , Kiyoshi TAMAI , Yuichi SUZUKI , Daisuke KOBAYASHI , Yoichi SERA , Taku YAMADA
CPC分类号: C03C21/002 , C03C3/085 , C03C3/087 , C03C3/091 , C03C15/00 , C03C21/006 , C03C23/0075 , G01B5/28
摘要: A method for producing a chemically strengthened glass, including a step of bringing a glass containing sodium into contact with an inorganic salt containing potassium nitrate, thereby performing ion exchange of a Na ion in the glass with a K ion in the inorganic salt, in which the inorganic salt contains at least one salt selected from the group consisting of K2CO3, Na2CO3, KHCO3, NaHCO3, K3PO4, Na3PO4, K2SO4, Na2SO4, KOH and NaOH, and the method includes: a step of washing the glass after the ion exchange; a step of subjecting the glass to an acid treatment after the washing; and a step of subjecting the glass to an alkali treatment after the acid treatment.
摘要翻译: 一种化学强化玻璃的制造方法,其特征在于,包括使含有钠的玻璃与含有硝酸钾的无机盐接触的步骤,由无机盐中的K离子与玻璃中的Na离子进行离子交换,其中, 无机盐含有选自K 2 CO 3,Na 2 CO 3,KHCO 3,NaHCO 3,K 3 PO 4,Na 3 PO 4,K 2 SO 4,Na 2 SO 4,KOH和NaOH的至少一种盐,该方法包括:在离子交换后洗涤玻璃的步骤; 洗涤后对玻璃进行酸处理的工序; 以及在酸处理后使玻璃进行碱处理的工序。
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公开(公告)号:US20160130179A1
公开(公告)日:2016-05-12
申请号:US15000918
申请日:2016-01-19
发明人: lzuru KASHIMA , Yusuke FUJIWARA , Kiyoshi TAMAI , Yuichi SUZUKI , Daisuke KOBAYASHI , Yoichi SERA , Taku YAMADA
CPC分类号: C03C21/002 , C03C3/085 , C03C3/087 , C03C3/091 , C03C15/00 , C03C21/006 , C03C23/0075 , G01B5/28
摘要: A chemically strengthened glass having a compressive stress layer formed in a surface layer thereof according to an ion exchange method, in which the glass has a surface roughness (Ra) of 0.20 nm or higher, a hydrogen concentration Y in a region to a depth X from an outermost surface of the glass satisfies the following relational equation (I) at X=from 0.1 to 0.4 (μm), a surface strength F (N) measured by a ball-on-ring test under the following conditions is (F≧1500×t2) relative to a sheet thickness t (mm) of the glass, and a surface of the glass has no polishing flaw: Y=aX+b (I) in which meanings of respective symbols in the equation (I) are as follows: Y: hydrogen concentration (as H2O, mol/L); X: depth from the outermost surface of the glass (μm); a: −0.270 to −0.005; and b: 0.020 to 0.220.
摘要翻译: 一种化学强化玻璃,其具有根据离子交换方法在其表面层形成的压应力层,其中所述玻璃的表面粗糙度(Ra)为0.20nm以上,区域中的氢浓度Y为深度X 在X = 0.1〜0.4(μm)的范围内,玻璃的最外表面满足以下的关系式(I),在下列条件下通过球形环试验测得的表面强度F(N)为(F≥ 1500×t2),玻璃的表面没有抛光缺陷:Y = aX + b(I)其中式(I)中各符号的含义为 如下:Y:氢浓度(如H2O,mol / L); X:玻璃最外表面的深度(μm); a:-0.270〜-0.005; b:0.020〜0.220。
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公开(公告)号:US20170087927A1
公开(公告)日:2017-03-30
申请号:US15375717
申请日:2016-12-12
发明人: Misa INAMOTO , Takashi SHIBUYA , Yoichi SERA , Takashi OKADA
CPC分类号: B44F1/02 , B32B3/18 , B32B3/26 , B32B7/02 , B32B15/04 , B32B15/20 , B32B2307/40 , B32B2307/416 , B44C1/227 , B44C3/02 , B44F1/06 , C03C15/02 , C03C17/09 , C03C17/36 , C03C17/3605 , C03C17/3639 , C03C17/3642 , C03C17/3649 , C03C2217/252 , C03C2217/253 , C03C2217/256 , C03C2217/258 , C03C2217/259 , C03C2217/268 , C03C2217/27 , C03C2217/72 , C03C2218/156 , C23F1/00 , G02B1/11 , G02B5/0294 , G02B5/0808 , G02B5/22 , G02B5/26 , G02B5/286 , H01L31/0547
摘要: A layered product includes a substrate including a first surface and second surface that face each other, wherein the layered product includes a metal film on the first surface of the substrate, wherein gaps are dispersed between the substrate and the metal film, the gaps optically affecting light in a visible light region, wherein, when the layered product is measured from the second surface of the substrate, an absorption ratio with respect to visible light, the absorption ratio being an average value in a range of wavelength from 400 nm to 700 nm, is greater than or equal to 50%, reflectance, the reflectance being an average value in a range of wavelength from 400 nm to 700 nm, is less than or equal to 40%, and brightness L* of a D65 light source in a visual field of 10 degrees is less than or equal to 70.
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公开(公告)号:US20160130178A1
公开(公告)日:2016-05-12
申请号:US15000719
申请日:2016-01-19
发明人: lzuru KASHIMA , Yusuke FUJIWARA , Kiyoshi TAMAI , Yuichi SUZUKI , Daisuke KOBAYASHI , Yoichi SERA , Taku YAMADA , Noriko TANABE
CPC分类号: C03C21/002 , C03C3/085 , C03C3/087 , C03C3/091 , C03C15/00 , C03C21/006 , C03C23/0075 , G01B5/28
摘要: A chemically strengthened glass having a compressive stress layer formed in a surface layer thereof according to an ion exchange method, in which a surface of the glass has polishing flaws, the glass has a texture direction index (Stdi) of 0.30 or more, a hydrogen concentration Y in a region to a depth X from an outermost surface of the glass satisfies the following relational equation (I) at X=from 0.1 to 0.4 (μm), and a surface strength F (N) measured by a ball-on-ring test is (F≧1400×t2) relative to a sheet thickness t (mm) of the glass: Y=aX+b (I) in which meanings of respective symbols in the equation (I) are as follows: Y: hydrogen concentration (as H2O, mol/L), X: depth from the outermost surface of the glass (μm), a: −0.300 or more, and b: 0.220 or less.
摘要翻译: 一种化学强化玻璃,其具有根据离子交换方法在其表面层形成的压应力层,其中玻璃的表面具有抛光缺陷,玻璃的织构方向指数(Stdi)为0.30以上,氢 在X = 0.1〜0.4(μm)的X = 0.1〜0.4(μm)的范围内,从玻璃的最外表面到深度X的区域的浓度Y满足以下的关系式(I),通过球形 环状试验相对于玻璃的片材厚度t(mm)为(F≥1400×t2):Y = aX + b(I)其中式(I)中各符号的含义如下:Y:氢 浓度(如H 2 O,mol / L),X:玻璃的最外表面的深度(μm),a:-0.300以上,b:0.220以下。
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7.发明申请GLASS SHEET CAPABLE OF BEING INHIBITED FROM WARPING THROUGH CHEMICAL STRENGTHENING 审中-公开通过化学强化而受到损坏的玻璃板公开(公告)号:US20150072129A1
公开(公告)日:2015-03-12
申请号:US14498120
申请日:2014-09-26
发明人: Naoki OKAHATA , Koji NAKAGAWA , Kazuhiko YAMANAKA , Kunio WATANABE , Shiro TANII , Nobuaki IKAWA , Daisuke KOBAYASHI , Junichi MIYASHITA , Ryosuke KATO , Toshifumi NIHEI , Yoichi SERA , Yasuo HAYASHI , Makoto FUKAWA
CPC分类号: C03C21/002 , C03C15/00 , C03C23/008 , Y10T428/31 , Y10T428/315
摘要: A glass sheet includes 4 mol % or more of Al2O3. In the glass sheet, a surface Na2O amount in one surface of the glass sheet is lower than the surface Na2O amount in the other surface of the glass sheet by 0.2 mass % to 1.2 mass %.
摘要翻译: 玻璃板包含4mol%以上的Al 2 O 3。 在玻璃板中,玻璃板的一个表面中的表面Na 2 O的量比玻璃板的另一面的表面Na 2 O的量低0.2质量%〜1.2质量%。
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公开(公告)号:US20170313621A1
公开(公告)日:2017-11-02
申请号:US15651353
申请日:2017-07-17
发明人: Izuru KASHIMA , Yusuke FUJIWARA , Kiyoshi TAMAI , Yuichi SUZUKI , Yoichi SERA , Daisuke KOBAYASHI
CPC分类号: C03C21/002 , C03C3/091 , C03C15/00 , C03C19/00 , C03C23/0075 , C03C2204/08 , G02F2001/133302
摘要: An object of the present invention is to provide a chemically strengthened glass that can effectively suppress strength of a glass from being deteriorated even though performing chemical strengthening and has high transmittance (that is, low reflectivity). The present invention relates to a chemically strengthened glass having a compressive stress layer formed on a surface layer thereof by an ion exchange method, in which the glass contains sodium and boron, and has a delta transmittance being +0.1% or more, and in which a straight line obtained by a linear approximation of a hydrogen concentration Y in a region of a depth X from an outermost surface of the glass satisfies a specific relational equation in X=0.1 to 0.4 (μm).
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公开(公告)号:US20170158542A1
公开(公告)日:2017-06-08
申请号:US15383838
申请日:2016-12-19
发明人: Yoichi SERA , Ryoji Akiyama , Masamichi Kawakami , Shiro Tanii , Katsuyuki Nakano , Daiki Akie , Noriko Kishikawa
CPC分类号: C03B18/02 , C03C3/087 , C03C15/00 , C03C15/02 , C03C17/002 , C03C17/007 , C03C17/22 , C03C2217/42 , C03C2217/47 , C03C2218/33 , C03C2218/355 , C03C2218/36 , G06F3/041
摘要: The glass plate according to the present invention has a buffer layer containing a plurality of sulfate crystals on a bottom surface which is brought into contact with a molten metal during formation in accordance with a float method, and the plurality of sulfate crystals have a median value of equivalent circle diameters of 350 nm or smaller as observed from a thickness direction.
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